Method for accurately estimating SOC (State of Charge)

An accurate, battery-powered technology, applied in measuring devices, instruments, measuring electricity, etc., can solve the problems of high current sampling accuracy requirements, large accumulated errors, and not obtained large, to increase SOC correction opportunities, improve SOC estimation accuracy, Increase the effect of SOC low-end correction

Active Publication Date: 2013-04-17
HUIZHOU EPOWER ELECTRONICS
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Problems solved by technology

The ampere-hour integration method has high requirements for current sampling accuracy, otherwise a large cumulative error may occur after long-term operation. In fact, there is a certain error in the current ampere-hour integration method.
In addition, the Kalman filter method and the fuzzy neural network method are common. Due to the hardware limitation of the battery management system and the maturity of the algorithm itself, it has not been verified by a large number of practical applications.
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  • Method for accurately estimating SOC (State of Charge)

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Embodiment Construction

[0025] A method for estimating the SOC of the present invention will be described below with reference to the drawings and embodiments.

[0026] The invention aims at the deficiency of the prior art method, and provides a simple and easy-to-use method for correcting SOC by making full use of the low-end linear range and the high-end full point of the battery charging curve. like figure 1 The charging curve of a lithium iron phosphate battery at different charging rates is shown. Through analysis, it is found that there is a linear interval at the low end of the curve. Usually, when the SOC is lower than 30%, the SOC value during charging changes significantly with the cell voltage. Also at the high end of the curve when the battery is fully charged, the voltage of the single cell exceeds the voltage of the lithium iron phosphate platform by a large amount, so two special sections of the charging curve can be used to correct the SOC during charging.

[0027] In the low-end cor...

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Abstract

The invention provides a method for accurately estimating an SOC (State of Charge). The charge curves of a battery at different temperatures and different multiplying powers are utilized, the SOC is corrected according to monomer voltage when the battery is charged, and the estimate accuracy of the SOC is improved. The method comprises the two steps of low end correction and high end correction. The method provided by the invention has the advantages that the correcting opportunity of the SOC is increased, the estimate accuracy of the SOC is increased, and the method is simple and easy to realize, popularize and use. According to the invention, the low ends and the high ends of the charge curves are fully utilized to correct the SOC on the basis of an open-circuit voltage process and an ampere-hour integration process. As the low-end correction of the SOC is increased in the charge process, the estimate accuracy of the SOC under charge interruption conditions can be improved.

Description

technical field [0001] The invention relates to the field of battery management, in particular to a method capable of accurately estimating SOC. Background technique [0002] The remaining power of the battery, also known as the State of Charge (SOC) of the battery, is one of the important parameters of the battery state and provides a basis for the control strategy of the electric vehicle. Accurately estimate the remaining power of the current battery, ensure that the SOC is maintained within a reasonable range, prevent overcharge or overdischarge from damage to the battery, and provide a technical direction for us to use the battery reasonably, improve the service life of the battery, and reduce maintenance costs. How to obtain the battery SOC value accurately and reliably is the most basic and important task of the battery management system. [0003] At present, a lot of research has been done on the accurate estimation of battery SOC at home and abroad. Due to the limit...

Claims

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Application Information

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IPC IPC(8): G01R31/36
Inventor 刘飞文锋阮旭松徐志森
Owner HUIZHOU EPOWER ELECTRONICS
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